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Wednesday, April 04, 2018









Designing a Mini Greenhouse 
An engineering challenge

The purpose of this engineering challenge involves research, investigation, design and construction to help maximize thermal energy contained within a plant growing system given a constant source of light radiation.

The transfer of light radiation into thermal energy, surrounding a growing plant, can be control through the design and construction of a plant housing unit that provides greater insulation ability than a standard plastic unit current employed in the classroom.

The design of a mini greenhouse is limited to the size of plants and the area covering a flat surface.  Materials used in this design needs to be a good insulator resisting the transfer of thermal energy through surfaces.

The physical dimensions (circle, square, triangular hexagonal and parabolic) and the sturdiness of material (cardboard, plastic, paper ceramic) can be utilized to maximize thermal energy retention.

Research on the design of mini greenhouses helps to spur innovative thought and development of ideas witnessed online.  You can modify a known design or create a new design based upon experience in physics and knowledge base.

It is important to be conscientious of the limitations or constraints that you face when designing mini greenhouses.  The size of the greenhouse and its ability to be integrated into existing environmental conditions, is a critical aspect of this engineering challenge.

The engineering design process:

ASKWhat is the problem? How have others approached it? What are your constraints?
IMAGINEWhat are some solutions? Brainstorm ideas. Choose the best one.
PLANDraw a diagram. Make lists of materials you will need.
CREATEFollow your plan and create something. Test it out!
IMPROVEWhat works? What doesn't? What could work better? Modify your design to make it better. Test it out!



Students access a wealth of material resources and begin construction on new plant growth systems that are expected to increase thermal energy within plant housing units during germination. 




Students are engineering a new mini greenhouse that traps  greater amounts of thermal energy within the plant housing unit.  The original prototype model, featured above, poorly insulates the environment around germinating seeds.




After completing the imagine and planning stages of the engineering process, students begin to create their new mini greenhouse based upon specific design considerations and constraints.



Students turn paper and pencil design into reality.  They imagine the possibilities and then implement practical applications to solve a problem.  The success of this project is dependent upon the heat retention ability of newly designed mini greenhouses.


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